KR830008006A - Steam Turbine Control Method and Device - Google Patents

Abstract

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Description

Steam Turbine Control Method and Device

Since this is an open matter, no full text was included.

1 is a block diagram of a combined cycle power plant.

3 is a schematic representation of a steam turbine control system according to the present invention.

Claims (20)

In a power plant comprising a steam turbine connected to the steam generator via a steam head and a main valve that allows steam to go to the steam turbine, a bypass valve to divert steam around the steam turbine and a method of controlling the steam turbine, Opening the main valve for the steam head pressure measurement and bottom set point pressure opening and speed-load control, and closing the bypass valve to maintain the steam head pressure at the set point when the main valve opens. , From the speed-load control to the pressure control, more opening of the main valve to hold the steam head pressure to the set point when the steam flow increases, and the position of the main valve to the For reference, the holding set valve position in the valve opening direction is set to a pressure set point to maintain the position of the main valve at the set point. Power plant consisting of steps such as coordination. Refers to the electrical clause 1 consisting of closing the main valve in response to a decrease in the pressure-flow in the steam head to maintain the pressure set point and an advanced step of opening the valve again at a preset maximum to reduce the pressure set point. Way. The conversion from speed-load control to pressure control at the main control valve causes the speed-load signal to gate the pressure and speed-load signals that dominate the main control valve as long as the bypass valve is open and the speed- after the bypass valve is closed. The method referred to in 1 above, consisting of ramping the load signal to its maximum value and an additional step of positioning the main control valve in accordance with the pressure signal after the bypass valve is closed. A steam turbine connected to the steam generator and a steam turbine connected to the steam generator through a high pressure steam head including a main valve for introducing steam to the steam turbine and a high pressure bypass valve for changing the direction of steam around the steam turbine. In power plants, including low pressure steam heads with low pressure bypass valves to divert steam around control valves and steam turbines, to measure steam pressure at high pressure steam heads and to maintain bottom pressure at high pressure steam heads. Opening the bypass valve at a fixed bottom pressure, opening the main control valve for speed-load control, and bypassing the bypass valve to maintain the steam head pressure at a fixed bottom pressure in the high pressure steam head as the steam flow increases. Refer to the retained set valve positioning point for closing and main valve position. Adjusting the pressure set point to maintain the main valve position, holding the fixed valve position set point, opening the low pressure bypass valve at a predetermined pressure set point, and opening the inlet control valve corresponding to the load demand set point. And closing the low pressure bypass valve when the inlet control valve is opened and thereby transferring the low pressure head control to the inlet control valve after the low pressure bypass valve is closed. Gates the sensitive pressure signal and speed-load signal, where the speed-load signal governs the main valve and ramps the speed-load signal to its maximum value after the high-pressure bypass valve is closed as long as the high-pressure bypass valve is open. And positioning the main control valve in accordance with the sensitive pressure signal after the high pressure bypass valve is closed. As long as the sensitive pressure signal and the speed-load signal are gated and the low pressure bypass valve is open, the speed-load signal dominates the inlet control valve, ramps the speed-load signal to its maximum after the low pressure bypass valve is closed, The method mentioned in the preceding 4, comprising positioning the entry control valve in accordance with a sensitive pressure signal after the low pressure bypass valve is closed. Steam turbine power generation consisting of a main control valve for introducing steam to the steam turbine and a bypass valve for diverting steam around the steam turbine, connected to the steam generator gas turbine and a device for controlling the operation of the steam turbine. Accepts bypass control for positioning the bypass valve according to the floor pressure set point in the plant, speed-load control for positioning the main control valve according to the speed-load set point, and inputs for the bypass control and the speed-load control And a main control valve circuit comprising the main control valve circuit and a low-value gate passing through a pressure-dependent signal or a speed-load output. The main control valve circuit has a speed-load whenever the low-point gate and bypass valve receive the input of the accumulation point from the speed-load control and bypass control, and the output of the speed-load control and the output of the accumulation contact. The steam turbine control mentioned in Clause 7, consisting of a ramp circuit connected to speed-load control providing a wide open signal of the valve for control. The low-value gate that the main control valve circuit receives inputs from the speed-load control and bypass control, inputs the output of the speed-load control, and the axial force of the accumulated contact, and the value of the right-hand control is negative. The steam turbine control referred to in Clause 7, in which the speed-load input of the gate is gated out. The steam turbine control referred to in Clause 9, consisting of a comparator circuit connected to speed-load control and the output of a low-value gate that provides a signal whenever the output of the accumulated low is less than the speed-load arc. The steam turbine mentioned in Clause 10, consisting of a ramp circuit with an input connected to the comparison circuit and an output connected to the speed-load control, whereby the speed-load signal is maximized corresponding to the output signal from the comparison circuit. Control. Steam turbine generation consisting of a steam generator connected to the steam turbine through a steam head including a main control valve for introducing steam to the steam turbine and a bypass valve for changing the direction of steam around the steam turbine, and a device for controlling the operation of the steam turbine In the plant, bypass control for positioning the bypass valve in accordance with a floor pressure set point, and speed-load control and accumulation contact for positioning the main control valve in accordance with the demand of speed-load in the bypass control and the speed-load control The speed-load comprising receiving an input of and the low-value gate accepts the speed-load control and the input at the accumulation contact and thereby causes pressure control if the output of the accumulation contact is less than the speed-load signal. A multi-team turbine power generation plan consisting of a main control valve circuit for receiving control and input from the bypass control. . In the steam turbine control for the steam turbine having the bypass control valve and the main control valve of the steam turbine control including the split pressure control, the output of the inlet pressure device and the pressure comparator compared with the inlet steam pressure transducer and the pressure holding point A steam turbine control comprising a bypass valve position circuit for activating the bypass valve whenever positive and a main valve position circuit for activating the main control valve whenever the output of the pressure comparator is negative. The steam turbine control referred to in clause 13, comprising a ramp device for compensating for a negative signal in the pressure comparator and thereby a control valve position circuit and a bypass valve position circuit operating on a positive input signal. It consists of a main control valve for introducing steam into the steam turbine and a bypass valve for diverting the steam around the steam turbine. The steam head is connected to the steam turbine through a steam head and a device for controlling the operation of the steam turbine. Bypass control for positioning the bypass valve according to the floor pressure set point in the turbine power plant and speed-load control for positioning the main control valve according to the speed-load demand set point and if the bypass valve is closed A main control valve circuit that compares the bypass control signal converted into a signal with the speed-load control signal and the bypass control entering the bypass control such that the bottom pressure set point is replaced by a variable pressure set point after the main valve reaches the hold position set point. Steam turbine generating plant consisting of a position feedback signal. Integrated control which provides an output signal whenever the valve position actuated by the accumulator compared with the main control valve position with the main valve position feedback signal constrains the main valve position and the hold position set point. The turbine control mentioned in the preceding claim 15 comprising a device and a device for raising the pressure set point in accordance with the output of the integrator. Steam turbine power generation consisting of a steam generator connected to the steam turbine and a device for coordinating the operation of the steam turbine through a steam head including a main control valve for introducing steam to the steam turbine and a bypass valve for changing the direction of the steam turbine juwill steam. Comparison of the output signal from the speed-load control and bypass control with the bypass control to position the bypass valve according to the floor pressure set point in the plant and the main control valve according to the speed-load set point and the output signal from the speed-load control A main control valve circuit comprising a main control valve circuit and a device for selecting a main control signal from the two output signals and the main control valve position feedback to increase the pressure set point of the bypass control whenever the main control valve exceeds the holding position set point. Steam turbine power plant consisting of circuits. A steam turbine connected to the steam generator through a high pressure steam head including a main valve for introducing steam to the steam turbine and a bypass valve for changing the direction of steam around the steam turbine, and an entry control valve for introducing steam to the steam turbine According to the high pressure bypass control and the maturity-load set point in which the high pressure bypass valve is positioned in accordance with the bottom pressure set point in a power generation plant including a low pressure bypass valve for changing the direction of steam around the steam turbine and a device for controlling the steam turbine. Speed-load control for positioning the upper extremity main valve, low pressure bypass control for positioning the low pressure bypass valve in accordance with a low pressure set point and a main valve valve for positioning the main valve according to one of the high pressure bypass control signal and the speed-load signal; Entry to position entry control valve according to signal from speed-load control Power plant composed of control valve circuit. A control system as set forth in claim 18, comprising a valve position feedvalle circuit going from said main control circuit to said high pressure bypass control and a device for raising a pressure set point in response to a deviation of the main control valve position required by a predetermined hold signal. The first signal ramp device connected to the main control valve circuit as the speed-load circuit, the second ramp device connected to the entry control valve circuit as the speed-load circuit, and whenever the angular speed-load signal is closed with each high pressure or low pressure bypass valve. The control system referred to in clause 19, comprising a comparator circuit each connected to each of said lamps to raise to a maximum. ※ Note: The disclosure is based on the initial application.